Articles | Volume 12, issue 4
https://doi.org/10.5194/tc-12-1233-2018
https://doi.org/10.5194/tc-12-1233-2018
Research article
 | 
10 Apr 2018
Research article |  | 10 Apr 2018

Thermodynamic and dynamic ice thickness contributions in the Canadian Arctic Archipelago in NEMO-LIM2 numerical simulations

Xianmin Hu, Jingfan Sun, Ting On Chan, and Paul G. Myers

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Cited articles

Agnew, T., Lambe, A., and Long, D.: Estimating sea ice area flux across the Canadian Arctic Archipelago using enhanced AMSR-E, J. Geophys. Res., 113, C10011, https://doi.org/10.1029/2007JC004582, 2008. a, b, c, d
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Bamber, J., van den Broeke, M., Ettema, J., Lenaerts, J., and Rignot, E.: Recent large increases in freshwater fluxes from Greenland into the North Atlantic, Geophys. Res. Lett., 39, L19501, https://doi.org/10.1029/2012GL052552, 2012. a, b
Bouillon, S., Fichefet, T., Legat, V., and Madec, G.: The elastic–viscous–plastic method revisited, Ocean Model., 71, 2–12, 2013. a
Brown, R. D. and Cote, P.: Interannual variability of landfast ice thickness in the Canadian High Arctic, 1950–89, Arctic, 45, 273–284, 1992. a
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Short summary
We evaluated the sea ice thickness simulation in the Canadian Arctic Archipelago region using 1/4 and 1/12 degree NEMO LIM2 configurations. Model resolution dose not play a significant role. Relatively smaller thermodynamic contribution in the winter season is found in the thick ice covered areas, with larger contributions in the thin ice covered regions. No significant trend in winter maximum ice volume is found in the northern CAA and Baffin Bay but a decline is simulated within Parry Channel.